Search

Your search keyword '"Carpentieri A."' showing total 6,002 results
Start Over Author "Carpentieri A."
6,002 results on '"Carpentieri A."'

1. Data-driven Surface Solar Irradiance Estimation using Neural Operators at Global Scale

Author

Carpentieri, Alberto, Leinonen, Jussi, Adie, Jeff, Bonev, Boris, Folini, Doris, and Hariri, Farah

Subjects
Physics - Atmospheric and Oceanic Physics, Computer Science - Artificial Intelligence
Abstract

Accurate surface solar irradiance (SSI) forecasting is essential for optimizing renewable energy systems, particularly in the context of long-term energy planning on a global scale. This paper presents a pioneering approach to solar radiation forecasting that leverages recent advancements in numerical weather prediction (NWP) and data-driven machine learning weather models. These advances facilitate long, stable rollouts and enable large ensemble forecasts, enhancing the reliability of predictions. Our flexible model utilizes variables forecast by these NWP and AI weather models to estimate 6-hourly SSI at global scale. Developed using NVIDIA Modulus, our model represents the first adaptive global framework capable of providing long-term SSI forecasts. Furthermore, it can be fine-tuned using satellite data, which significantly enhances its performance in the fine-tuned regions, while maintaining accuracy elsewhere. The improved accuracy of these forecasts has substantial implications for the integration of solar energy into power grids, enabling more efficient energy management and contributing to the global transition to renewable energy sources.

Published
2024

2. A design of magnetic tunnel junctions for the deployment of neuromorphic hardware for edge computing

Author

Rodrigues, Davi, Raimondo, Eleonora, Tomasello, Riccardo, Carpentieri, Mario, and Finocchio, Giovanni

Subjects
Physics - Applied Physics, Computer Science - Emerging Technologies
Abstract

The electrically readable complex dynamics of robust and scalable magnetic tunnel junctions (MTJs) offer promising opportunities for advancing neuromorphic computing. In this work, we present an MTJ design with a free layer and two polarizers capable of computing the sigmoidal activation function and its gradient at the device level. This design enables both feedforward and backpropagation computations within a single device, extending neuromorphic computing frameworks previously explored in the literature by introducing the ability to perform backpropagation directly in hardware. Our algorithm implementation reveals two key findings: (i) the small discrepancies between the MTJ-generated curves and the exact software-generated curves have a negligible impact on the performance of the backpropagation algorithm, (ii) the device implementation is highly robust to inter-device variation and noise, and (iii) the proposed method effectively supports transfer learning and knowledge distillation. To demonstrate this, we evaluated the performance of an edge computing network using weights from a software-trained model implemented with our MTJ design. The results show a minimal loss of accuracy of only 0.1% for the Fashion MNIST dataset and 2% for the CIFAR-100 dataset compared to the original software implementation. These results highlight the potential of our MTJ design for compact, hardware-based neural networks in edge computing applications, particularly for transfer learning., Comment: 18 pages, 5 figures

Published
2024

3. Skyrmions in synthetic antiferromagnet nanorings for electrical signal generation

Author

Kechrakos, Dimitris, Carpentieri, Mario, Giordano, Anna, Tomasello, Riccardo, and Finocchio, Giovanni

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Current-driven magnetic skyrmions show promise as carriers of information bits in racetrack magnetic memory applications. Specifically, the utilization of skyrmions in synthetic antiferromagnetic (SAF) systems is highly attractive due to the potential to suppress the Skyrmion Hall effect, which causes a transverse displacement of driven skyrmions relative to the drift direction. In this study, we demonstrate, through analytical calculations and micromagnetic simulations, that in the case of a nanoring geometry, current-driven skyrmions achieve a stable circular motion with a constant frequency, which is a prerequisite for a skyrmion-based clock device. Notably, the operational frequency in a SAF nanoring surpasses that in a bilayer ferromagnetic-heavy metal nanoring and lies in the GHz regime for current densities of 20 MA/cm^2. We also find that the performance of skyrmions in SAF nanorings is comparable to that of radial Neel domain walls for low current densities (approximately 15 MA/cm^2) and low skyrmion densities (Nsk~6). Additionally, we introduce a novel skyrmionic three-phase AC alternator based on a SAF nanoring, which operates at frequencies in the GHz regime. Our findings underscore the potential of SAF nanorings as constituent materials in clock devices with tunable frequencies operating in the GHz regime, Comment: 20 pages, 7 Figures

Published
2024

4. Topological spin-torque diode effect in skyrmion-based magnetic tunnel junctions

Author

Fang, Bin, Tomasello, Riccardo, Wu, Yuxuan, Chen, Aitian, Liu, Shuhui, Zhang, Baoshun, Darwin, Emily, Carpentieri, Mario, Jiang, Wanjun, Zhang, Xixiang, Finocchio, Giovanni, and Zeng, Zhongming

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The growing market and massive use of Internet of Things nodes is placing unprecedented demands of energy efficient hardware for edge computing and microwave devices. In particular, magnetic tunnel junctions (MTJs), as main building blocks of spintronic microwave technology, can offer a path for the development of compact and high-performance microwave detectors. On the other hand, the fascinating field of skyrmionics is bridging together concepts from topology and spintronics. Here, we show the proof of concept of a topological spin-torque diode realized with an MTJ on top of a skyrmionic material at room temperature and for a wide region of applied fields, including the zero-field case. Our spin torque diode electrical measurements show the electrical excitation of a skyrmion resonant mode with frequencies near 4 GHz and a selectivity one order of magnitude smaller than the uniform modes excited in the same device. Micromagnetic simulations identify these dynamics with the excitation of the breathing mode and point out the role of thickness dependent magnetic parameters (magnetic anisotropy field and Dzyaloshinkii Moriya interaction) in both stabilizing and exciting the magnetic skyrmions. This work marks a milestone for the development of topological spin-torque diodes.

Published
2024

5. Performance evaluation of acceleration of convolutional layers on OpenEdgeCGRA

Author

Carpentieri, Nicolò, Sapriza, Juan, Schiavone, Davide, Pagliari, Daniele Jahier, Atienza, David, Martina, Maurizio, and Burrello, Alessio

Subjects
Computer Science - Hardware Architecture
Abstract

Recently, efficiently deploying deep learning solutions on the edge has received increasing attention. New platforms are emerging to support the increasing demand for flexibility and high performance. In this work, we explore the efficient mapping of convolutional layers on an open-hardware, low-power Coarse-Grain Reconfigurable Array (CGRA), namely OpenEdgeCGRA. We explore both direct implementations of convolution and solutions that transform it into a matrix multiplication through an Im2col transformation, and experiment with various tensor parallelism axes. We show that for this hardware target, direct convolution, coupled with weight parallelism reaches the best latency and energy efficiency, outperforming a CPU implementation by 3.4x and 9.9x in terms of energy and latency, respectively.

Published
2024

8. A Bernoulli-barycentric rational matrix collocation method with preconditioning for a class of evolutionary PDEs

Author

Luo, Wei-Hua, Gu, Xian-Ming, Carpentieri, Bruno, and Guo, Jun

Subjects
Mathematics - Numerical Analysis, 65M70, 65Y05, 65D25
Abstract

We propose a Bernoulli-barycentric rational matrix collocation method for two-dimensional evolutionary partial differential equations (PDEs) with variable coefficients that combines Bernoulli polynomials with barycentric rational interpolations in time and space, respectively. The theoretical accuracy $O\left((2\pi)^{-N}+h_x^{d_x-1}+h_y^{d_y-1}\right)$ of our numerical scheme is proven, where $N$ is the number of basis functions in time, $h_x$ and $h_y$ are the grid sizes in the $x$, $y$-directions, respectively, and $0\leq d_x\leq \frac{b-a}{h_x},~0\leq d_y\leq\frac{d-c}{h_y}$. For the efficient solution of the relevant linear system arising from the discretizations, we introduce a class of dimension expanded preconditioners that take the advantage of structural properties of the coefficient matrices, and we present a theoretical analysis of eigenvalue distributions of the preconditioned matrices. The effectiveness of our proposed method and preconditioners are studied for solving some real-world examples represented by the heat conduction equation, the advection-diffusion equation, the wave equation and telegraph equations., Comment: 23 pages, 6 figures, 9 tables (update some contexts)

Published
2024

9. Extending intraday solar forecast horizons with deep generative models

Author

Carpentieri, Alberto, Folini, Doris, Leinonen, Jussi, and Meyer, Angela

Subjects
Physics - Atmospheric and Oceanic Physics
Abstract

Surface solar irradiance (SSI) plays a crucial role in tackling climate change - as an abundant, non-fossil energy source, exploited primarily via photovoltaic (PV) energy production. With the growing contribution of SSI to total energy production, the stability of the latter is challenged by the intermittent character of the former, arising primarily from cloud effects. Mitigating this stability challenge requires accurate, uncertainty-aware, near real-time, regional-scale SSI forecasts with lead times of minutes to a few hours, enabling robust real-time energy grid management. State-of-the-art nowcasting methods typically meet only some of these requirements. Here we present SHADECast, a deep generative diffusion model for the probabilistic spatiotemporal nowcasting of SSI, conditioned on deterministic aspects of cloud evolution to guide the probabilistic ensemble forecast, and based on near real-time satellite data. We demonstrate that SHADECast provides improved forecast quality, reliability, and accuracy in different weather scenarios. Our model produces realistic and spatiotemporally consistent predictions outperforming the state of the art by 15% in the continuous ranked probability score (CRPS) over different regions up to 512 km x 512 km with lead times of 15-120 min. Conditioning the ensemble generation on deterministic forecasts improves reliability and performance by more than 7% on CRPS. Our approach empowers grid operators and energy traders to make informed decisions, ensuring stability and facilitating the seamless integration of PV energy across multiple locations simultaneously.

Published
2023

12. All-antiferromagnetic electrically controlled memory on silicon featuring large tunneling magnetoresistance

Author

Shi, Jiacheng, Lopez-Dominguez, Victor, Arpaci, Sevdenur, Sangwan, Vinod K., Mahfouzi, Farzad, Kim, Jinwoong, Athas, Jordan G., Hamdi, Mohammad, Aygen, Can, Phatak, Charudatta, Carpentieri, Mario, Jiang, Jidong S., Grayson, Matthew A., Kioussis, Nicholas, Finocchio, Giovanni, Hersam, Mark C., and Amiri, Pedram Khalili

Subjects
Physics - Applied Physics
Abstract

Antiferromagnetic (AFM) materials are a pathway to spintronic memory and computing devices with unprecedented speed, energy efficiency, and bit density. Realizing this potential requires AFM devices with simultaneous electrical writing and reading of information, which are also compatible with established silicon-based manufacturing. Recent experiments have shown tunneling magnetoresistance (TMR) readout in epitaxial AFM tunnel junctions. However, these TMR structures were not grown using a silicon-compatible deposition process, and controlling their AFM order required external magnetic fields. Here we show three-terminal AFM tunnel junctions based on the noncollinear antiferromagnet PtMn3, sputter-deposited on silicon. The devices simultaneously exhibit electrical switching using electric currents, and electrical readout by a large room-temperature TMR effect. First-principles calculations explain the TMR in terms of the momentum-resolved spin-dependent tunneling conduction in tunnel junctions with noncollinear AFM electrodes.

Published
2023

13. Skyrmions in nanorings: a versatile platform for Skyrmionics

Author

Kechrakos, Dimitris, Puliafito, Vito, Riveros, Alejandro, Liu, Jiahao, Jiang, Wanjun, Carpentieri, Mario, Tomasello, Riccardo, and Finocchio, Giovanni

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The dynamical properties of skyrmions can be exploited to build devices with new functionalities. Here, we first investigate a skyrmion-based ring-shaped device by means of micromagnetic simulations and Thiele equation. We subsequently show three applications scenarios: (1) a clock with tunable frequency that is biased with an electrical current having a radial spatial distribution, (2) an alternator, where the skyrmion circular motion driven by an engineered anisotropy gradient is converted into an electrical signal, and (3) an energy harvester, where the skyrmion motion driven by a thermal gradient is converted into an electrical signal, thus providing a heat recovery operation. We also show how to precisely tune the frequency and amplitude of the output electrical signals by varying material parameters, geometrical parameters, number and velocity of skyrmions, and we further prove the correct device functionality under realistic conditions given by room temperature and internal material defects. Our results open a new route for the realization of energy efficient nanoscale clocks, generators, and energy harvesters.

Published
2023

14. Rapid Efficacy of riSankizumab in pretibial psoriasis invOLVEment: RESOLVE

Author

Nicoletta Bernardini, Nevena Skroza, Laura Atzori, Cristina Mugheddu, Matteo Megna, Sara Cacciapuoti, Michela Ortoncelli, Maria A Montesu, Antonio Carpentieri, Martino Carriero, Maria G Atzori, Gianmario Addis, Riccardo Balestri, Giulia Rech, Pierluigi Bruni, Manuela Papini, and Concetta Potenza

Subjects
psoriasis, difficult-to-treat-areas, il-23 inhibitors, pretibial, Therapeutics. Pharmacology, RM1-950
Abstract

Background: Despite extraordinary improvements in the management of psoriasis in recent times, some areas of the body, such as the pretibial area, still show an unsatisfactory response and a more significant impact on patient quality of life. This multicentre study focuses on psoriasis affecting sensitive areas (particularly the pretibial area), its impact on quality of life and the therapeutic response to risankizumab. Methods: This multicentre prospective observational study recruited patients with moderate-to-severe psoriasis with pretibial area involvement. All patients underwent treatment with risankizumab (150 mg every 3 weeks), and efficacy was assessed after 24 weeks. Results: The study included 128 patients with a mean age of 51 years, suffering from moderate-to-severe psoriasis with involvement of the pretibial area with median total Psoriasis Area Severity Index score of 17.05 and Dermatology Life Quality Index of 16.27. The group was further divided into two sub-groups: the ‘mother patch’ group, in whom the very first psoriatic plaque appeared in the pretibial region (45 patients), and the ‘non-mother patch’ group, in whom the psoriatic lesion in the pretibial region was present but not as the first manifestation (83 patients). In order to better assess the involvement of psoriasis in the pretibial area, the pretibial plaque lesion severity index was also calculated at baseline in all patients: extent 2.75, erythema 2.64, infiltration 2.45 and desquamation 2.38. All participants in this study showed a good therapeutic response, with a reduction in all scores. Conclusions: The pretibial area is becoming an object of therapeutic interest due to some resistance to clearance and the consequent impairment of patient quality of life. This study showed that risankizumab can give favourable therapeutic results not only in patients with moderate-to-severe psoriasis with involvement of the difficult-to-treat areas but particularly in patients with recalcitrant plaques in the pretibial area.

Published
2024
Full Text
View/download PDF

15. Between Life Course Research and Social History: New Approaches to Qualitative Data in the British Birth Cohort Studies

Author

J. D. Carpentieri, Laura Carter, and Chris Jeppesen

Abstract

This article discusses a new interdisciplinary, mixed-methods approach to using data from the first British Birth Cohort Study, the National Survey of Health and Development (NSHD, 1946). It emerges from a collaboration between two historians of postwar Britain and a mixed-methods life course studies researcher. Our approach brings together cohort-level quantitative data with less well-known qualitative data from a sample of 150 participants' original NSHD interview questionnaires to generate new perspectives on how macro processes of social change were experienced at an individual level and varied across the life course. The NSHD school-age and early adulthood sweeps included a series of open-ended questions relating to education, work, and social identities, which offer a sense of how participants responded to and understood the social transformations of the postwar decades within their everyday lives. This article explains our methodological rationale, before focussing on the wider analytical possibilities of our approach in relation to social mobility.

Published
2024
Full Text
View/download PDF

16. Seismic monitoring using the telecom fiber network

Author

Donadello, Simone, Clivati, Cecilia, Govoni, Aladino, Margheriti, Lucia, Vassallo, Maurizio, Brenda, Daniele, Hovsepyan, Marianna, Bertacco, Elio K., Concas, Roberto, Levi, Filippo, Mura, Alberto, Herrero, Andrè, Carpentieri, Francesco, and Calonico, Davide

Subjects
Physics - Geophysics, Physics - Instrumentation and Detectors, Physics - Optics
Abstract

Laser interferometry enables to remotely measure microscopical length changes of deployed telecommunication cables originating from earthquakes. Long range and compatibility with data traffic make it unique to the exploration of remote regions, as well as highly-populated areas where optical networks are pervasive, and its large-scale implementation is attractive for both Earth scientists and telecom operators. However, validation and modeling of its response and sensitivity are still at an early stage and suffer from lack of statistically-significant event catalogs and limited availability of co-located seismometers. We implemented laser interferometry on a land-based telecommunication cable and analyzed 1.5 years of continuous acquisition, with successful detections of events in a broad range of magnitudes, including very weak ones. By comparing fiber and seismometer recordings we determined relations between a cable's detection probability and the magnitude and distance of events, and showed that spectral analysis of recorded data allows considerations on the earthquake dynamics. Our results reveal that quantitative analysis is possible for this sensing technique and support the interpretation of data from the growing amount of interferometric deployments. We anticipate the high integration and scalability of laser interferometry into existing telecommunication grids to be useful for the daily seismicity monitoring, in perspective exploitable for civilian protection use.

Published
2023
Full Text
View/download PDF

17. A magneto-mechanical accelerometer based on magnetic tunnel junctions

Author

Meo, Andrea, Garescì, Francesca, Lopez-Dominguez, Victor, Rodrigues, Davi, Raimondo, Eleonora, Puliafito, Vito, Amiri, Pedram Khalili, Carpentieri, Mario, and Finocchio, Giovanni

Subjects
Physics - Applied Physics
Abstract

Accelerometers have widespread applications and are an essential component in many areas such as automotive, consumer electronics and industrial applications. Most commercial accelerometers are based on micro-electromechanical system (MEMS) that are limited in downscaling and power consumption. Spintronics-based accelerometers have been proposed as alternatives, however, current proposals suffer from design limitations that result in reliability issues and high cost. Here we propose spintronic accelerometers with magnetic tunnel junctions (MTJs) as building block, which map accelerations into a measurable voltage across the MTJ terminals. The device exploits elastic and dipolar coupling as a sensing mechanism and the spintronic diode effect for the direct read out of the acceleration. The proposed technology represents a potentially competitive and scalable solution to current capacitive MEMS-based approaches that could lead to a step forward in many of the commercial applications., Comment: main document with 4 figures + supplemental information

Published
2023

19. Seismic monitoring using the telecom fiber network

Author

Donadello, Simone, Clivati, Cecilia, Govoni, Aladino, Margheriti, Lucia, Vassallo, Maurizio, Brenda, Daniele, Hovsepyan, Marianna, Bertacco, Elio K., Concas, Roberto, Levi, Filippo, Mura, Alberto, Herrero, André, Carpentieri, Francesco, and Calonico, Davide

Published
2024
Full Text
View/download PDF

23. Manipulation of magnetic solitons under the influence of DMI gradients

Author

Moukhader, Rayan, Rodrigues, Davi, Raimondo, Eleonora, Puliafito, Vito, Azzerboni, Bruno, Carpentieri, Mario, Hamadeh, Abbass, Finocchio, Giovanni, and Tomasello, Riccardo

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Magnetic solitons are promising for applications due to their intrinsic properties such as small size, topological stability, ultralow power manipulation and potentially ultrafast operations. To date, research has focused on the manipulation of skyrmions, domain walls, and vortices by applied currents. The discovery of new methods to control magnetic parameters, such as the interfacial Dzyaloshinskii-Moriya interaction (DMI) by strain, geometry design, temperature gradients, and applied voltages promises new avenues for energetically efficient manipulation of magnetic structures. The latter has shown significant progress in 2d material-based technology. In this work, we present a comprehensive study using numerical and analytical methods of the stability and motion of different magnetic textures under the influence of DMI gradients. Our results show that under the influence of linear DMI gradients, N\'eel and Bloch-type skyrmions and radial vortex exhibit motion with finite skyrmion Hall angle, while the circular vortex undergoes expulsion dynamics. This work provides a deeper and crucial understanding of the stability and gradient-driven dynamics of magnetic solitons, and paves the way for the design of alternative low-power sources of magnetization manipulation in the emerging field of 2d materials., Comment: 19 pages, 5 figures

Published
2023

24. Intraday probabilistic forecasts of solar resources with cloud scale-dependent autoregressive advection

Author

Carpentieri, Alberto, Pulkkinen, Seppo, Nerini, Daniele, Folini, Doris, Wild, Martin, and Meyer, Angela

Subjects
Physics - Atmospheric and Oceanic Physics
Abstract

Solar energy supply is usually highly volatile which limits its integration in the power grid. Accurate probabilistic intraday forecasts of solar resources are essential to increase the share of photovoltaic (PV) energy in the grid and enable cost-efficient balancing of power demand and supply. Solar PV production mainly depends on downwelling surface solar radiation (SSR). By estimating SSR from geostationary satellites, we can cover large areas with high spatial and temporal resolutions, allowing us to track cloud motion. State-of-the-art probabilistic forecasts of solar resources from satellite imagery account only for the advective motion of clouds. They do not consider the evolution of clouds over time, their growth, and dissipation, even though these are major sources of forecast uncertainty. To address the uncertainty of cloudiness evolution, we present SolarSTEPS, the first optical-flow probabilistic model able to simulate the temporal variability of cloudiness. We demonstrate that forecasting the autocorrelated scale-dependent evolution of cloudiness outperforms state-of-the-art probabilistic advection-based forecasts by 9% in continuous ranked probability score (CRPS). This corresponds to an extension of the forecast lead time by about 45 minutes at constant CRPS. Our work is motivated by the scale-dependent predictability of cloud growth and decay. We demonstrate that cloudiness is more variable in time at smaller spatial scales than at larger ones. Specifically, the temporal autocorrelation of cloudiness is related to its spatial scale by a rational function. We also demonstrate that decomposing cloudiness into multiple spatial scales in the forecasts further improves the forecast skill, reducing the CRPS by 10% and the RMSE by 9%., Comment: 17 pages plus appendix, 10 figures. To be submitted

Published
2023

25. A spintronic Huxley-Hodgkin-analogue neuron implemented with a single magnetic tunnel junction

Author

Rodrigues, Davi R., Moukhader, Rayan, Luo, Yanxiang, Fang, Bin, Pontlevy, Adrien, Hamadeh, Abbas, Zeng, Zhongming, Carpentieri, Mario, and Finocchio, Giovanni

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Spiking neural networks aim to emulate the brain's properties to achieve similar parallelism and high-processing power. A caveat of these neural networks is the high computational cost to emulate, while current proposals for analogue implementations are energy inefficient and not scalable. We propose a device based on a single magnetic tunnel junction to perform neuron firing for spiking neural networks without the need of any resetting procedure. We leverage two physics, magnetism and thermal effects, to obtain a bio-realistic spiking behavior analogous to the Huxley-Hodgkin model of the neuron. The device is also able to emulate the simpler Leaky-Integrate and Fire model. Numerical simulations using experimental-based parameters demonstrate firing frequency in the MHz to GHz range under constant input at room temperature. The compactness, scalability, low cost, CMOS-compatibility, and power efficiency of magnetic tunnel junctions advocate for their broad use in hardware implementations of spiking neural networks., Comment: 23 pages, 6 figures, 2 tables

Published
2023

26. Evaluating spintronics-compatible implementations of Ising machines

Author

Grimaldi, Andrea, Mazza, Luciano, Raimondo, Eleonora, Tullo, Pietro, Rodrigues, Davi, Camsari, Kerem Y., Crupi, Vincenza, Carpentieri, Mario, Puliafito, Vito, and Finocchio, Giovanni

Subjects
Condensed Matter - Other Condensed Matter
Abstract

The commercial and industrial demand for the solution of hard combinatorial optimization problems push forward the development of efficient solvers. One of them is the Ising machine which can solve combinatorial problems mapped to Ising Hamiltonians. In particular, spintronic hardware implementations of Ising machines can be very efficient in terms of area and performance, and are relatively low-cost considering the potential to create hybrid CMOS-spintronic technology. Here, we perform a comparison of coherent and probabilistic paradigms of Ising machines on several hard Max-Cut instances, analyzing their scalability and performance at software level. We show that probabilistic Ising machines outperform coherent Ising machines in terms of the number of iterations required to achieve the problem s solution. Nevertheless, high frequency spintronic oscillators with sub-nanosecond synchronization times could be very promising as ultrafast Ising machines. In addition, considering that a coherent Ising machine acts better for Max-Cut problems because of the absence of the linear term in the Ising Hamiltonian, we introduce a procedure to encode Max-3SAT to Max-Cut. We foresee potential synergic interplays between the two paradigms., Comment: 26 pages, 6 Figures, submitted for publication in Phys. Rev. Applied (it will be presented at intermag 2023 in Japan)

Published
2023
Full Text
View/download PDF

27. Ultra-sensitive voltage-controlled skyrmion-based spintronic diode

Author

Rodrigues, Davi, Tomasello, Riccardo, Siracusano, Giulio, Carpentieri, Mario, and Finocchio, Giovanni

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We have designed a passive spintronic diode based on a single skyrmion stabilized in a magnetic tunnel junction and studied its dynamics induced by voltage-controlled anisotropy (VCMA) and Dzyaloshinskii-Moriya interaction (VDMI). We have demonstrated that the sensitivity (rectified voltage over input microwave power) with realistic physical parameters and geometry can be larger than 10 kV/W which is one order of magnitude better than diodes employing a uniform ferromagnetic state. Our numerical and analytical results on the VCMA and VDMI-driven resonant excitation of skyrmions beyond the linear regime reveal a frequency dependence on the amplitude and no efficient parametric resonance. Skyrmions with a smaller radius produced higher sensitivities, demonstrating the efficient scalability of skyrmion-based spintronic diodes. These results pave the way for designing passive ultra-sensitive and energy efficient skyrmion-based microwave detectors., Comment: 11 pages, 3 figures

Published
2023
Full Text
View/download PDF

28. Field-driven collapsing dynamics of skyrmions in magnetic multilayers

Author

Tomasello, R., Wang, Z., Raimondo, E., Je, S., Im, M., Carpentieri, M., Jiang, W., and Finocchio, G.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Magnetic skyrmions are fascinating topological particle-like textures promoted by a trade-off among interfacial properties (perpendicular anisotropy and Dzyaloshinskii-Moriya interaction (DMI)) and dipolar interactions. Depending on the dominant interaction, complex spin textures, including pure N\'eel and hybrid skyrmions have been observed in multilayer heterostructures. A quantification of these different spin textures typically requires a depth-reoslved magnetic imaging or scattering techniques. In the present work, we will show qualitatively different collapsing dynamics for pure N\'eel and hybrid skyrmions induced by a perpendicular magnetic field in two representative systems, [Pt/Co/Ir]15 and [Ta/CoFeB/MgO]15 multilayers. Skyrmions in the former stack undergo two morphological transitions, upon reversing the perpendicular field direction. Skyrmions in [Ta/CoFeB/MgO]15 multilayers exhibit a continuous transition, which is mainly linked to a reversible change of the skyrmion size. A full micromagnetic phase diagram is presented to identify these two collapsing mechanisms as a function of material parameters. Since the two distinct collapsing dynamics rely on the detailed layer-dependent spin structures of skyrmions, they could be used as potential fingerprints for identifying the skyrmion type in magnetic multilayers. Our work suggests the employment of pure and hybrid skyrmions for specific applications, due to the strong correlation between the skyrmion dynamics and 3-dimentional spin profiles., Comment: 16 pages, 8 figures

Published
2023
Full Text
View/download PDF

29. Roadmap for Unconventional Computing with Nanotechnology

Author

Finocchio, Giovanni, Incorvia, Jean Anne C., Friedman, Joseph S., Yang, Qu, Giordano, Anna, Grollier, Julie, Yang, Hyunsoo, Ciubotaru, Florin, Chumak, Andrii, Naeemi, Azad J., Cotofana, Sorin D., Tomasello, Riccardo, Panagopoulos, Christos, Carpentieri, Mario, Lin, Peng, Pan, Gang, Yang, J. Joshua, Todri-Sanial, Aida, Boschetto, Gabriele, Makasheva, Kremena, Sangwan, Vinod K., Trivedi, Amit Ranjan, Hersam, Mark C., Camsari, Kerem Y., McMahon, Peter L., Datta, Supriyo, Koiller, Belita, Aguilar, Gabriel H., Temporão, Guilherme P., Rodrigues, Davi R., Sunada, Satoshi, Everschor-Sitte, Karin, Tatsumura, Kosuke, Goto, Hayato, Puliafito, Vito, Åkerman, Johan, Takesue, Hiroki, Di Ventra, Massimiliano, Pershin, Yuriy V., Mukhopadhyay, Saibal, Roy, Kaushik, Wang, I-Ting, Kang, Wang, Zhu, Yao, Kaushik, Brajesh Kumar, Hasler, Jennifer, Ganguly, Samiran, Ghosh, Avik W., Levy, William, Roychowdhury, Vwani, and Bandyopadhyay, Supriyo

Subjects
Computer Science - Emerging Technologies, Physics - Applied Physics
Abstract

In the "Beyond Moore's Law" era, with increasing edge intelligence, domain-specific computing embracing unconventional approaches will become increasingly prevalent. At the same time, adopting a variety of nanotechnologies will offer benefits in energy cost, computational speed, reduced footprint, cyber resilience, and processing power. The time is ripe for a roadmap for unconventional computing with nanotechnologies to guide future research, and this collection aims to fill that need. The authors provide a comprehensive roadmap for neuromorphic computing using electron spins, memristive devices, two-dimensional nanomaterials, nanomagnets, and various dynamical systems. They also address other paradigms such as Ising machines, Bayesian inference engines, probabilistic computing with p-bits, processing in memory, quantum memories and algorithms, computing with skyrmions and spin waves, and brain-inspired computing for incremental learning and problem-solving in severely resource-constrained environments. These approaches have advantages over traditional Boolean computing based on von Neumann architecture. As the computational requirements for artificial intelligence grow 50 times faster than Moore's Law for electronics, more unconventional approaches to computing and signal processing will appear on the horizon, and this roadmap will help identify future needs and challenges. In a very fertile field, experts in the field aim to present some of the dominant and most promising technologies for unconventional computing that will be around for some time to come. Within a holistic approach, the goal is to provide pathways for solidifying the field and guiding future impactful discoveries., Comment: 80 pages accepted in Nano Futures

Published
2023
Full Text
View/download PDF

30. Fluid Tunnel Research for Challenges of Urban Climate

Author

Zhao, Yongling, Chew, Lup Wai, Fan, Yifan, Gromke, Christof, Hang, Jian, Yu, Yichen, Ricci, Alessio, Zhang, Yan, Xue, Yunpeng, Fellini, Sofia, Mirzaei, Parham A., Gao, Naiping, Carpentieri, Matteo, Salizzoni, Pietro, Niu, Jianlei, and Carmeliet, Jan

Subjects
Physics - Fluid Dynamics, Physics - Atmospheric and Oceanic Physics
Abstract

Experimental investigations using wind and water tunnels have long been a staple of fluid mechanics research for a large number of applications. These experiments often single out a specific physical process to be investigated, while studies involving multiscale and multi-physics processes are rare due to the difficulty and complexity in the experimental setup. In the era of climate change, there is an increasing interest in innovative experimental studies in which fluid (wind and water) tunnels are employed for modelling multiscale, multi-physics phenomena of the urban climate. High-quality fluid tunnel measurements of urban-physics related phenomena are also much needed to facilitate the development and validation of advanced multi-physics numerical models. As a repository of knowledge in modelling these urban processes, we cover fundamentals, recommendations and guidelines for experimental design, recent advances and outlook on eight selected research areas, including (i) thermal buoyancy effects of urban airflows, (ii) aerodynamic and thermal effects of vegetation, (iii) radiative and convective heat fluxes over urban materials, (iv) influence of thermal stratification on land-atmosphere interactions, (v) pollutant dispersion, (vi) indoor and outdoor natural ventilation, (vii) wind thermal comfort, and (viii) urban winds over complex urban sites. Further, three main challenges, i.e., modelling of multi-physics, modelling of anthropogenic processes, and combined use of fluid tunnels, scaled outdoor and field measurements for urban climate studies, are discussed., Comment: 36 pages,9 figures, 1 table

Published
2023

31. Long COVID and Health Inequalities: What's Next for Research and Policy Advocacy?

Author

Sarah Akhtar Baz, Mirembe Woodrow, Donna Clutterbuck, Chao Fang, Jordan Mullard, Amitava Banerjee, Sarah Barley‐McMullen, Jd Carpentieri, Anne‐Laure Donskoy, Alice Faux‐Nightingale, Sasha Lewis‐Jackson, Margaret E. O'Hara, Tanvi Rai, Ondine Sherwood, Nina Smyth, Kirsty Stanley, Victoria Welsh, Ghazala Mir, and Nisreen A. Alwan

Subjects
health inequalities, Long COVID, QLC network, qualitative, Medicine (General), R5-920, Public aspects of medicine, RA1-1270
Abstract

ABSTRACT Introduction Organised by the ‘Qualitative Long Covid Network’, a workshop for qualitative Long COVID (LC) researchers, LC charity representatives and people with LC took place in June 2023, where research on the intersectional inequalities affecting LC prevalence, recognition and care was shared and discussed. Methods Five key themes were drawn up from presentations, discussions and reflections during the workshop, which are presented in this study. Results The following five themes are discussed: the unfairness of LC, difficulties in accessing care, mistrust of the healthcare system, a lack of understanding of LC and experiences of stigma and discrimination. Factors that widen or narrow inequalities related to LC were identified. Conclusion A call to action is proposed to investigate and address inequalities through a robust LC research agenda that speaks with conviction to policy and decision‐makers. We argue that there needs to be a strong investment in research and evidence‐based policy and practice to mitigate the worst effects of the condition and address the inequalities in experience, treatment and support, which are experienced more often and more acutely by some of society's most vulnerable and disadvantaged individuals. Patient and Public (PPI) Contribution Projects included in this article had PPI ongoing activity to inform their research. A member of the CONVALESCENCE PPI group presented at the QLC Network ‘Long Covid and Health Inequalities’ workshop, as did members of Long COVID Kids, Long COVID Support and Long COVID SOS charities. They were all invited to be co‐authors of this article.

Published
2024
Full Text
View/download PDF

40. Beyond City Average: Spatial Analysis to Support Energy-Saving Interventions in Urban Planning

Author

Carpentieri, Gerardo, Gargiulo, Carmela, Guida, Carmen, Zucaro, Floriana, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Gervasi, Osvaldo, editor, Murgante, Beniamino, editor, Garau, Chiara, editor, Taniar, David, editor, C. Rocha, Ana Maria A., editor, and Faginas Lago, Maria Noelia, editor

Published
2024
Full Text
View/download PDF

41. Greening and Cooling Urban Areas: The Open Space System Contribution for Energy Saving and Climate Change Adaptation

Author

Carpentieri, Gerardo, Gargiulo, Carmela, Stiuso, Tonia, Zucaro, Floriana, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Gervasi, Osvaldo, editor, Murgante, Beniamino, editor, Garau, Chiara, editor, Taniar, David, editor, C. Rocha, Ana Maria A., editor, and Faginas Lago, Maria Noelia, editor

Published
2024
Full Text
View/download PDF

42. Perceptions of Safety for Women in Urban Areas: A Spatial Regression Analysis in the City of Naples

Author

Carpentieri, Gerardo, Guida, Carmen, Gorrini, Andrea, Messa, Federico, Zucaro, Floriana, Martinelli, Valerio, Stiuso, Tonia, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Gervasi, Osvaldo, editor, Murgante, Beniamino, editor, Garau, Chiara, editor, Taniar, David, editor, C. Rocha, Ana Maria A., editor, and Faginas Lago, Maria Noelia, editor

Published
2024
Full Text
View/download PDF

43. A Digital Humanities Approach to Study Women’s Perceptions of Safety in the City of Milan: The STEP uP Project

Author

Abdelfattah, Lamia, Scarponi, Lily, Messa, Federico, Guida, Carmen, Zucaro, Floriana, Carpentieri, Gerardo, Andreola, Florencia, Muzzonigro, Azzurra, Walker, Jim, Gorrini, Andrea, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Gervasi, Osvaldo, editor, Murgante, Beniamino, editor, Garau, Chiara, editor, Taniar, David, editor, C. Rocha, Ana Maria A., editor, and Faginas Lago, Maria Noelia, editor

Published
2024
Full Text
View/download PDF

44. Large-Scale Finite Element Modeling of Pre-stress in Articular Cartilage

Author

Sajjadinia, Seyed Shayan, Carpentieri, Bruno, Holzapfel, Gerhard A., Tavares, João Manuel R. S., Series Editor, Jorge, Renato Natal, Series Editor, Cohen, Laurent, Editorial Board Member, Doblare, Manuel, Editorial Board Member, Frangi, Alejandro, Editorial Board Member, Garcia-Aznar, Jose Manuel, Editorial Board Member, Holzapfel, Gerhard A., Editorial Board Member, Hughes, Thomas J.R., Editorial Board Member, Kamm, Roger, Editorial Board Member, Li, Shuo, Editorial Board Member, Löhner, Rainald, Editorial Board Member, Nithiarasu, Perumal, Editorial Board Member, Oñate, Eugenio, Editorial Board Member, Perales, Francisco J., Editorial Board Member, Prendergast, Patrick J., Editorial Board Member, Tamma, Kumar K., Editorial Board Member, Vilas-Boas, Joao Paulo, Editorial Board Member, Weiss, Jeffrey, Editorial Board Member, Zhang, Yongjie Jessica, Editorial Board Member, Skalli, Wafa, editor, Laporte, Sébastien, editor, and Benoit, Aurélie, editor

Published
2024
Full Text
View/download PDF

45. Energy-Saving and Urban Planning: An Application of Integrated Spatial and Statistical Analyses to Naples

Author

Carpentieri, Gerardo, Gargiulo, Carmela, Guida, Carmen, Zucaro, Floriana, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Marucci, Alessandro, editor, Zullo, Francesco, editor, Fiorini, Lorena, editor, and Saganeiti, Lucia, editor

Published
2024
Full Text
View/download PDF

46. Satellite-derived solar radiation for intra-hour and intra-day applications: Biases and uncertainties by season and altitude

Author

Carpentieri, Alberto, Folini, Doris, Wild, Martin, Vuilleumier, Laurent, and Meyer, Angela

Subjects
Physics - Atmospheric and Oceanic Physics, Computer Science - Machine Learning
Abstract

Accurate estimates of the surface solar radiation (SSR) are a prerequisite for intra-day forecasts of solar resources and photovoltaic power generation. Intra-day SSR forecasts are of interest to power traders and to operators of solar plants and power grids who seek to optimize their revenues and maintain the grid stability by matching power supply and demand. Our study analyzes systematic biases and the uncertainty of SSR estimates derived from Meteosat with the SARAH-2 and HelioMont algorithms at intra-hour and intra-day time scales. The satellite SSR estimates are analyzed based on 136 ground stations across altitudes from 200 m to 3570 m Switzerland in 2018. We find major biases and uncertainties in the instantaneous, hourly and daily-mean SSR. In peak daytime periods, the instantaneous satellite SSR deviates from the ground-measured SSR by a mean absolute deviation (MAD) of 110.4 and 99.6 W/m2 for SARAH-2 and HelioMont, respectively. For the daytime SSR, the instantaneous, hourly and daily-mean MADs amount to 91.7, 81.1, 50.8 and 82.5, 66.7, 42.9 W/m2 for SARAH-2 and HelioMont, respectively. Further, the SARAH-2 instantaneous SSR drastically underestimates the solar resources at altitudes above 1000 m in the winter half year. A possible explanation in line with the seasonality of the bias is that snow cover may be misinterpreted as clouds at higher altitudes.

Published
2022

49. 'They seemed to be like cogs working in different directions': a longitudinal qualitative study on Long COVID healthcare services in the United Kingdom from a person-centred lens

Author

Chao Fang, Sarah Akhtar Baz, Laura Sheard, and J. D. Carpentieri

Subjects
Long COVID, Healthcare, Chronic illness, Person-centred care, Health services, Longitudinal, Public aspects of medicine, RA1-1270
Abstract

Abstract Background The COVID-19 pandemic has presented significant challenges to the already over-stretched healthcare system in the United Kingdom (UK). These challenges are particularly pronounced for people living with the novel condition of Long COVID (LC) as they often face persistent and fluctuating symptoms, encountering prolonged uncertainty when seeking medical support. Despite a growing understanding of the healthcare challenges associated with LC, existing qualitative studies have predominantly focused on individual experiences rather than examining the structural aspects of healthcare. Methods A longitudinal qualitative study with 80 participants and 12 healthcare practitioners was conducted in the UK to explore the healthcare experiences of those with LC. In total, 178 interviews (with attrition) were collected across two rounds, from November 2021 to March 2022, and from June to October 2022. Results Embracing a person-centred framework that recognises and nurtures interconnected individual, relational, and existential needs, we investigated healthcare experiences related to LC across primary, secondary, and specialist integrated care. Using this perspective, we identified three overarching themes. Theme 1 addresses the persistent hurdle of accessing primary care as the initial point of contact for LC healthcare; Theme 2 underscores the complexity of navigating secondary care; and Theme 3 encapsulates the distinctive challenges of developing LC integrated care. These themes are interlinked, as people with LC often had to navigate or struggle between the various systems, with practitioners seeking to collaborate across the breadth of their professional responsibilities. Conclusion From a person-centred approach, we were able to identify the needs of those affected by lasting LC symptoms and comprehend how health services intricately influence these needs. The focus on healthcare systems also captures the nuanced impact that continuing healthcare struggles can have on people’s identity. As such, our findings provide evidence to inform a more effective and sustainable delivery of person-centred care for people with LC across various healthcare settings and over time.

Published
2024
Full Text
View/download PDF

50. Seismic monitoring using the telecom fiber network

Author

Simone Donadello, Cecilia Clivati, Aladino Govoni, Lucia Margheriti, Maurizio Vassallo, Daniele Brenda, Marianna Hovsepyan, Elio K. Bertacco, Roberto Concas, Filippo Levi, Alberto Mura, André Herrero, Francesco Carpentieri, and Davide Calonico

Subjects
Geology, QE1-996.5, Environmental sciences, GE1-350
Abstract

Abstract Laser interferometry enables to remotely measure microscopical length changes of deployed telecommunication cables originating from earthquakes. Long reach and compatibility with data transmission make it attractive for the exploration of both remote regions and highly-populated areas where optical networks are pervasive. However, interpretation of its response still suffers from a limited number of available datasets. We systematically analyze 1.5 years of acquisitions on a land-based telecommunication cable in comparison to co-located seismometers, with successful detection of events in a broad magnitude range, including very weak ones. We determine relations between a cable’s detection probability and the events magnitude and distance, introducing spectral analysis of fiber data as a tool to investigate earthquake dynamics. Our results reveal that quantitative analysis is possible, confirming applicability of this technique both for the global monitoring of our planet and the daily seismicity monitoring of populated areas, in perspective exploitable for civilian protection.

Published
2024
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results